Retro68/gcc/libgfortran/io/async.h
Wolfgang Thaller 6fbf4226da gcc-9.1
2019-06-20 20:10:10 +02:00

404 lines
11 KiB
C

/* Copyright (C) 2018-2019 Free Software Foundation, Inc.
Contributed by Nicolas Koenig
This file is part of the GNU Fortran runtime library (libgfortran).
Libgfortran is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3, or (at your option)
any later version.
Libgfortran is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
Under Section 7 of GPL version 3, you are granted additional
permissions described in the GCC Runtime Library Exception, version
3.1, as published by the Free Software Foundation.
You should have received a copy of the GNU General Public License and
a copy of the GCC Runtime Library Exception along with this program;
see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
<http://www.gnu.org/licenses/>. */
#ifndef ASYNC_H
#define ASYNC_H
/* Async I/O will not work on targets which do not support
__gthread_cond_t and __gthread_equal / __gthread_self. Check
this. */
#if defined(__GTHREAD_HAS_COND) && defined(__GTHREADS_CXX0X)
#define ASYNC_IO 1
#else
#define ASYNC_IO 0
#endif
/* Defining DEBUG_ASYNC will enable somewhat verbose debugging
output for async I/O. */
#define DEBUG_ASYNC
#undef DEBUG_ASYNC
#ifdef DEBUG_ASYNC
/* Define this if you want to use ANSI color escape sequences in your
debugging output. */
#define DEBUG_COLOR
#ifdef DEBUG_COLOR
#define MPREFIX "\033[30;46mM:\033[0m "
#define TPREFIX "\033[37;44mT:\033[0m "
#define RPREFIX "\033[37;41mR:\033[0m "
#define DEBUG_RED "\033[31m"
#define DEBUG_ORANGE "\033[33m"
#define DEBUG_GREEN "\033[32m"
#define DEBUG_DARKRED "\033[31;2m"
#define DEBUG_PURPLE "\033[35m"
#define DEBUG_NORM "\033[0m"
#define DEBUG_REVERSE_RED "\033[41;37m"
#define DEBUG_BLUE "\033[34m"
#else
#define MPREFIX "M: "
#define TPREFIX "T: "
#define RPREFIX ""
#define DEBUG_RED ""
#define DEBUG_ORANGE ""
#define DEBUG_GREEN ""
#define DEBUG_DARKRED ""
#define DEBUG_PURPLE ""
#define DEBUG_NORM ""
#define DEBUG_REVERSE_RED ""
#define DEBUG_BLUE ""
#endif
#define DEBUG_PRINTF(...) fprintf (stderr,__VA_ARGS__)
#define IN_DEBUG_QUEUE(mutex) ({ \
__label__ end; \
aio_lock_debug *curr = aio_debug_head; \
while (curr) { \
if (curr->m == mutex) { \
goto end; \
} \
curr = curr->next; \
} \
end:; \
curr; \
})
#define TAIL_DEBUG_QUEUE ({ \
aio_lock_debug *curr = aio_debug_head; \
while (curr && curr->next) { \
curr = curr->next; \
} \
curr; \
})
#define CHECK_LOCK(mutex, status) do { \
aio_lock_debug *curr; \
INTERN_LOCK (&debug_queue_lock); \
if (__gthread_mutex_trylock (mutex)) { \
if ((curr = IN_DEBUG_QUEUE (mutex))) { \
sprintf (status, DEBUG_RED "%s():%d" DEBUG_NORM, curr->func, curr->line); \
} else \
sprintf (status, DEBUG_RED "unknown" DEBUG_NORM); \
} \
else { \
__gthread_mutex_unlock (mutex); \
sprintf (status, DEBUG_GREEN "unlocked" DEBUG_NORM); \
} \
INTERN_UNLOCK (&debug_queue_lock); \
}while (0)
#define T_ERROR(func, ...) do { \
int t_error_temp; \
t_error_temp = func(__VA_ARGS__); \
if (t_error_temp) \
ERROR (t_error_temp, "args: " #__VA_ARGS__ "\n"); \
} while (0)
#define NOTE(str, ...) do{ \
char note_str[200]; \
sprintf (note_str, "%s" DEBUG_PURPLE "NOTE: " DEBUG_NORM str, aio_prefix, ##__VA_ARGS__); \
DEBUG_PRINTF ("%-90s %20s():%-5d\n", note_str, __FUNCTION__, __LINE__); \
}while (0);
#define ERROR(errnum, str, ...) do{ \
char note_str[200]; \
sprintf (note_str, "%s" DEBUG_REVERSE_RED "ERROR:" DEBUG_NORM " [%d] " str, aio_prefix, \
errnum, ##__VA_ARGS__); \
DEBUG_PRINTF ("%-68s %s():%-5d\n", note_str, __FUNCTION__, __LINE__); \
}while (0)
#define MUTEX_DEBUG_ADD(mutex) do { \
aio_lock_debug *n; \
n = malloc (sizeof(aio_lock_debug)); \
n->prev = TAIL_DEBUG_QUEUE; \
if (n->prev) \
n->prev->next = n; \
n->next = NULL; \
n->line = __LINE__; \
n->func = __FUNCTION__; \
n->m = mutex; \
if (!aio_debug_head) { \
aio_debug_head = n; \
} \
} while (0)
#define UNLOCK(mutex) do { \
aio_lock_debug *curr; \
DEBUG_PRINTF ("%s%-75s %20s():%-5d %18p\n", aio_prefix, DEBUG_GREEN "UNLOCK: " DEBUG_NORM #mutex, \
__FUNCTION__, __LINE__, (void *) mutex); \
INTERN_LOCK (&debug_queue_lock); \
curr = IN_DEBUG_QUEUE (mutex); \
if (curr) \
{ \
if (curr->prev) \
curr->prev->next = curr->next; \
if (curr->next) { \
curr->next->prev = curr->prev; \
if (curr == aio_debug_head) \
aio_debug_head = curr->next; \
} else { \
if (curr == aio_debug_head) \
aio_debug_head = NULL; \
} \
free (curr); \
} \
INTERN_UNLOCK (&debug_queue_lock); \
INTERN_UNLOCK (mutex); \
}while (0)
#define TRYLOCK(mutex) ({ \
char status[200]; \
int res; \
aio_lock_debug *curr; \
res = __gthread_mutex_trylock (mutex); \
INTERN_LOCK (&debug_queue_lock); \
if (res) { \
if ((curr = IN_DEBUG_QUEUE (mutex))) { \
sprintf (status, DEBUG_RED "%s():%d" DEBUG_NORM, curr->func, curr->line); \
} else \
sprintf (status, DEBUG_RED "unknown" DEBUG_NORM); \
} \
else { \
sprintf (status, DEBUG_GREEN "unlocked" DEBUG_NORM); \
MUTEX_DEBUG_ADD (mutex); \
} \
DEBUG_PRINTF ("%s%-44s prev: %-35s %20s():%-5d %18p\n", aio_prefix, \
DEBUG_DARKRED "TRYLOCK: " DEBUG_NORM #mutex, status, __FUNCTION__, __LINE__, \
(void *) mutex); \
INTERN_UNLOCK (&debug_queue_lock); \
res; \
})
#define LOCK(mutex) do { \
char status[200]; \
CHECK_LOCK (mutex, status); \
DEBUG_PRINTF ("%s%-42s prev: %-35s %20s():%-5d %18p\n", aio_prefix, \
DEBUG_RED "LOCK: " DEBUG_NORM #mutex, status, __FUNCTION__, __LINE__, (void *) mutex); \
INTERN_LOCK (mutex); \
INTERN_LOCK (&debug_queue_lock); \
MUTEX_DEBUG_ADD (mutex); \
INTERN_UNLOCK (&debug_queue_lock); \
DEBUG_PRINTF ("%s" DEBUG_RED "ACQ:" DEBUG_NORM " %-30s %78p\n", aio_prefix, #mutex, mutex); \
} while (0)
#define DEBUG_LINE(...) __VA_ARGS__
#else
#define DEBUG_PRINTF(...) {}
#define CHECK_LOCK(au, mutex, status) {}
#define NOTE(str, ...) {}
#define DEBUG_LINE(...)
#define T_ERROR(func, ...) func(__VA_ARGS__)
#define LOCK(mutex) INTERN_LOCK (mutex)
#define UNLOCK(mutex) INTERN_UNLOCK (mutex)
#define TRYLOCK(mutex) (__gthread_mutex_trylock (mutex))
#endif
#define INTERN_LOCK(mutex) T_ERROR (__gthread_mutex_lock, mutex);
#define INTERN_UNLOCK(mutex) T_ERROR (__gthread_mutex_unlock, mutex);
#if ASYNC_IO
#define SIGNAL(advcond) do{ \
INTERN_LOCK (&(advcond)->lock); \
(advcond)->pending = 1; \
DEBUG_PRINTF ("%s%-75s %20s():%-5d %18p\n", aio_prefix, DEBUG_ORANGE "SIGNAL: " DEBUG_NORM \
#advcond, __FUNCTION__, __LINE__, (void *) advcond); \
T_ERROR (__gthread_cond_broadcast, &(advcond)->signal); \
INTERN_UNLOCK (&(advcond)->lock); \
} while (0)
#define WAIT_SIGNAL_MUTEX(advcond, condition, mutex) do{ \
__label__ finish; \
INTERN_LOCK (&((advcond)->lock)); \
DEBUG_PRINTF ("%s%-75s %20s():%-5d %18p\n", aio_prefix, DEBUG_BLUE "WAITING: " DEBUG_NORM \
#advcond, __FUNCTION__, __LINE__, (void *) advcond); \
if ((advcond)->pending || (condition)){ \
UNLOCK (mutex); \
goto finish; \
} \
UNLOCK (mutex); \
while (!__gthread_cond_wait(&(advcond)->signal, &(advcond)->lock)) { \
{ int cond; \
LOCK (mutex); cond = condition; UNLOCK (mutex); \
if (cond){ \
DEBUG_PRINTF ("%s%-75s %20s():%-5d %18p\n", aio_prefix, DEBUG_ORANGE "REC: " DEBUG_NORM \
#advcond, __FUNCTION__, __LINE__, (void *)advcond); \
break; \
} \
} \
} \
finish: \
(advcond)->pending = 0; \
INTERN_UNLOCK (&((advcond)->lock)); \
} while (0)
#define REVOKE_SIGNAL(advcond) do{ \
INTERN_LOCK (&(advcond)->lock); \
(advcond)->pending = 0; \
INTERN_UNLOCK (&(advcond)->lock); \
} while (0)
#else
#define SIGNAL(advcond) do{} while(0)
#define WAIT_SIGNAL_MUTEX(advcond, condition, mutex) do{} while(0)
#define REVOKE_SIGNAL(advcond) do{} while(0)
#endif
#if ASYNC_IO
DEBUG_LINE (extern __thread const char *aio_prefix);
DEBUG_LINE (typedef struct aio_lock_debug{
__gthread_mutex_t *m;
int line;
const char *func;
struct aio_lock_debug *next;
struct aio_lock_debug *prev;
} aio_lock_debug;)
DEBUG_LINE (extern aio_lock_debug *aio_debug_head;)
DEBUG_LINE (extern __gthread_mutex_t debug_queue_lock;)
/* Thread - local storage of the current unit we are looking at. Needed for
error reporting. */
extern __thread gfc_unit *thread_unit;
#endif
enum aio_do {
AIO_INVALID = 0,
AIO_DATA_TRANSFER_INIT,
AIO_TRANSFER_SCALAR,
AIO_TRANSFER_ARRAY,
AIO_WRITE_DONE,
AIO_READ_DONE,
AIO_CLOSE
};
typedef union transfer_args
{
struct
{
void (*transfer) (struct st_parameter_dt *, bt, void *, int, size_t, size_t);
bt arg_bt;
void *data;
int i;
size_t s1;
size_t s2;
} scalar;
struct
{
gfc_array_char *desc;
int kind;
gfc_charlen_type charlen;
} array;
} transfer_args;
struct adv_cond
{
#if ASYNC_IO
int pending;
__gthread_mutex_t lock;
__gthread_cond_t signal;
#endif
};
typedef struct async_unit
{
__gthread_mutex_t io_lock; /* Lock for doing actual I/O. */
__gthread_mutex_t lock; /* Lock for manipulating the queue structure. */
bool empty;
struct
{
int waiting;
int low;
int high;
struct adv_cond done;
} id;
#if ASYNC_IO
struct adv_cond work;
struct adv_cond emptysignal;
struct st_parameter_dt *pdt;
pthread_t thread;
struct transfer_queue *head;
struct transfer_queue *tail;
struct {
const char *message;
st_parameter_common *cmp;
bool has_error;
int last_good_id;
int family;
bool fatal_error;
} error;
#endif
} async_unit;
void init_async_unit (gfc_unit *);
internal_proto (init_async_unit);
bool async_wait (st_parameter_common *, async_unit *);
internal_proto (async_wait);
bool async_wait_id (st_parameter_common *, async_unit *, int);
internal_proto (async_wait_id);
bool collect_async_errors (st_parameter_common *, async_unit *);
internal_proto (collect_async_errors);
void async_close (async_unit *);
internal_proto (async_close);
void enqueue_transfer (async_unit * au, transfer_args * arg, enum aio_do);
internal_proto (enqueue_transfer);
void enqueue_done (async_unit *, enum aio_do type);
internal_proto (enqueue_done);
int enqueue_done_id (async_unit *, enum aio_do type);
internal_proto (enqueue_done_id);
void enqueue_init (async_unit *);
internal_proto (enqueue_init);
void enqueue_data_transfer_init (async_unit *, st_parameter_dt *, int);
internal_proto (enqueue_data_transfer_init);
void enqueue_close (async_unit *);
internal_proto (enqueue_close);
#endif